THE DEVELOPMENT OF FLIGHT SURFACES ON THE AVIAN WING

被引:0
|
作者
Kaiser, G. [1 ]
Dyke, G. [2 ]
机构
[1] Royal British Columbia Museum, Victoria, BC V8W 9W2, Canada
[2] Univ Southampton, Natl Oceanog Ctr, Southampton SO14 3ZH, Hants, England
来源
ZOOLOGICHESKY ZHURNAL | 2014年 / 93卷 / 10期
关键词
flight; birds; theropods; plumage; aerodynamics; EVOLUTIONARY ORIGIN; WATER REPELLENCY; MODERN BIRDS; FEATHERS; DINOSAURS; THEROPOD; CHINA; FOSSIL;
D O I
10.7868/S0044513414100067
中图分类号
Q95 [动物学];
学科分类号
071002 ;
摘要
The evolution of the feathering arrangements that comprise the modern avian wing can be tracked using both physical evidence from the known fossil record and interpreting the aerodynamic theory. Evidence from both the fossil record and from living birds suggests that all feathered wings reflect the same basic structural plan. Here we review scenarios for the evolutionary history of the lifting surfaces of the feathered wing, suggesting non-locomotory influences on their early development and building on Pennycuick's (2008) aerodynamic theories for the eventual development of avian flight.
引用
收藏
页码:1155 / 1165
页数:11
相关论文
共 50 条
  • [1] The development of flight surfaces on the avian wing
    Kaiser, G.
    Dyke, G.
    BIOLOGY BULLETIN, 2015, 42 (07) : 607 - 615
  • [2] The development of flight surfaces on the avian wing
    G. Kaiser
    G. Dyke
    Biology Bulletin, 2015, 42 : 607 - 615
  • [3] Wing kinematics of avian flight across speeds
    Tobalske, BW
    Hedrick, TL
    Biewener, AA
    JOURNAL OF AVIAN BIOLOGY, 2003, 34 (02) : 177 - 184
  • [4] The function of avian distal wing bones during flight
    Crandell, K. E.
    INTEGRATIVE AND COMPARATIVE BIOLOGY, 2013, 53 : E270 - E270
  • [5] Aerodynamic properties of avian flight as a function of wing shape
    March, Andrew I.
    Bradley, Charles W.
    Garcia, Ephrahim
    PROCEEDINGS OF THE ASME FLUIDS ENGINEERING DIVISION, 2005, 261 : 955 - 963
  • [6] Avian gliding flight: wing configurations in and out of ground effect
    Cheney, J. A.
    Stevenson, J. P. J.
    Durston, N. E.
    Usherwood, J. R.
    Windsor, S. P.
    Bomphrey, R. J.
    INTEGRATIVE AND COMPARATIVE BIOLOGY, 2018, 58 : E36 - E36
  • [7] Robotic Avian Wing Explains Aerodynamic Advantages of Wing Folding and Stroke Tilting in Flapping Flight
    Ajanic, Enrico
    Paolini, Adrien
    Coster, Charles
    Floreano, Dario
    Johansson, Christoffer
    ADVANCED INTELLIGENT SYSTEMS, 2023, 5 (02)
  • [8] Pose and shape changes of avian flight surfaces for control
    Stevenson, J. P. J.
    Cheney, J. A.
    Durston, N. E.
    Usherwood, J. R.
    Windsor, S. P.
    Bomphrey, R. J.
    INTEGRATIVE AND COMPARATIVE BIOLOGY, 2019, 59 : E415 - E415
  • [9] A wing-assisted running robot and implications for avian flight evolution
    Peterson, K.
    Birkmeyer, P.
    Dudley, R.
    Fearing, R. S.
    BIOINSPIRATION & BIOMIMETICS, 2011, 6 (04)
  • [10] DEVELOPMENT OF WING-FLAPPING AND FLIGHT - A REVIEW
    PROVINE, RR
    BIRD BEHAVIOUR, 1983, 5 (01): : 16 - 21
12345